Conference Papers

Permanent URI for this collectionhttp://repository.kln.ac.lk/handle/123456789/6561

This collection contains abstracts of conference papers, presented at local and international conferences by the staff of the Faculty of Medicine

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Author: search.filters.author.Dissanayake, T.

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    Lung function of fuel handlers exposed to volatile organic compounds
    (Journal of the Ceylon College of Physicians, 2020) Wadasinghe, D.; Warnakulasuriya, T.; Medagoda, K.; Kottahachchi, D.; Luke, D.; Ariyawansa, J.; Rathnayake, P.; Dissanayake, T.; de Silva, D.; Amarasiri, L.; Devanarayana, N.M.; Scheepers, P.
    INTRODUCTION AND OBJECTIVES: The respiratory system is a target for effects from air pollutants, including vehicle emissions composed of volatile organic compounds (VOC), particulate matter and other noxious gasses. Our objective was to study the association between selected VOCs and lung function in a cohort of fuel handlers. METHOD: Forty-four fuel handlers (men) from the Gampaha district of Sri Lanka aged 19-65 years were selected using consecutive sampling with a group of 38 males matched by age, without occupational exposure to fuel recruited as controls. Spirometry was performed using a Vitalograph Alpha Touch spirometer, according to ATS guidelines. Pre and post shift VOC levels were measured in end exhaled air samples. RESULTS: The spirometry parameters were not significantly different between the two groups but obstructive (47.72% vs.34.21%) and restrictive ventilatory patterns (31.81% vs. 21.05%) were higher among the fuel handlers. FVC and FEV1 negatively correlated with age (r=-0.672, p<0.001 and r=-6.888, p<0.001 respectively) and number of days of exposure (r=-0.329, p=0.033 and r=-0.306, p=0.049 respectively). Among the fuel handler's, benzene exposure negatively correlated with FVC (r=-0.552, p=0.012) and FEV1 (r=-0.476, p=0.034) and toluene exposure negatively correlated with PEF (r=-0.488, p=0.034). Although levels of all VOCs measured were significantly low among the controls, toluene exposure levels negatively correlated with all spirometry parameters (p<0.05). CONCLUSIONS: A decline in lung function is seen with more days of exposure as a fuel handler. The different vVOCs· affect the volume parameters and flow parameters uniquely and even non-occupational exposure causes an alteration of spirometry parameters among adult males.
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    Autonomic functions among fuel handlers in the Gampaha District
    (Journal of the Ceylon College of Physicians, 2020) Medagoda, K.; Warnakulasuriya, T.; Kottahachchi, D.; Luke, D.; Wadasinghe, D.; Ariyawansha, J.; Rathnayaka, P.; Dissanayake, T.; de Silva, D.; Devanarayana, N.M.
    INTRODUCTION AND OBJECTIVES: Economic growth of Sri Lanka has increased the number of motor vehicles. Fuel stations employing more fuel handlers have been established to cope with the demand. The long working hours with exposure to hydrocarbon fuels result in adverse health effects and this study was done to assess the cardiovascular autonomic functions (ANF) including heart rate variations (HRV). METHOD: Fifty fuel handlers from the Gampaha district of Sri Lanka (19-65 years; all were males) from 7 fuel stations were recruited using consecutive sampling and compared with 46 age and gender matched individuals without occupational exposure to fuel (controls). Demographic data were collected after obtaining informed written consent and systematic examination was conducted. ANF assessment and HRV assessment were performed using validated protocols. RESULTS: There were no significant differences in age, weight, height or the BMI among the study and the control populations (p>0.05). Both systolic blood pressure (BP) (Mann Whitney U (MW)= 743.5, p=0.003), diastolic BP (MW= 686.5, p=0.001) and Valsalva ratio (MW= 874.00, p=0.043) were significantly higher among the fuel handlers compared to the controls. Rise in DBP in sustained handgrip, a sympathetic parameter was significantly higher among controls (MW= 863.00, p=0.049). Among HRV parameters, standard deviation of RR intervals was higher among the fuel handlers compared to controls (MW=842.QO, p=0.034). Parasympathetic parameters correlated with exposure hours per week (p<0.05). CONCLUSION: Altered sympathetic: parasympathetic balance was observed among the fuel handlers with a parasympathetic predominance suggesting that autonomic functions are affected on expo­ sure to air pollution and hydrocarbons.